公开(公告)号：US08245086B2

公开(公告)日：2012-08-14

申请号：US12492422

申请日：2009-06-26

Applicant: Curtis S. Eide ,  Michael T. Kalmbach ,  Aditya Kumar ,  Timothy L. Thompson ,  Brent R. Tiefenthaler

Inventor： Curtis S. Eide ,  Michael T. Kalmbach ,  Aditya Kumar ,  Timothy L. Thompson ,  Brent R. Tiefenthaler

IPC: G06F11/00

CPC classification number: G06F11/328

Abstract: Techniques are disclosed for conveying which hardware components of a logically partitioned computer system are assigned to a selected logical partition of the computer system. Partition information for the computer system is received. Further, a request is received from a user to view which hardware components of the computer system are assigned to a selected logical partition of the computer system. Based on the received partition information, one or more hardware components are determined that are assigned to the selected logical partition. Based on the determined hardware components, a virtual model of the computer system is generated that visually distinguishes hardware components assigned to the selected logical partition from hardware components not assigned to the selected logical partition. The virtual model is output responsive to the request.

Abstract translation: 公开了用于传送逻辑分区计算机系统的哪些硬件组件被分配给计算机系统的所选逻辑分区的技术。 收到计算机系统的分区信息。 此外，从用户接收到请求以查看计算机系统的哪些硬件组件被分配给计算机系统的所选择的逻辑分区。 基于接收到的分区信息，确定分配给所选择的逻辑分区的一个或多个硬件组件。 基于确定的硬件组件，生成计算机系统的虚拟模型，其将分配给所选逻辑分区的硬件组件与未分配给所选择的逻辑分区的硬件组件视觉区分开。 根据请求输出虚拟模型。

公开(公告)号：US08140717B2

公开(公告)日：2012-03-20

申请号：US12238757

申请日：2008-09-26

Applicant: Curtis Shannon Eide ,  Aditya Kumar

Inventor： Curtis Shannon Eide ,  Aditya Kumar

IPC: G06F3/00 ,  G06F9/00

CPC classification number: G06F9/45558 ,  G06F2009/45579

Abstract: A low-level logical partitioning function associates partitions, partitionable entities, and location codes. Partitionable entities are hardware components, not necessarily individually replaceable. The location code reflects the physical topology of the system packaging. It is preferably a string of concatenated elements, each element representing a device in a hierarchical level of devices which may contain other devices. A respective location code is likewise associated with each of multiple physical indicators. The location code of partitionable entities allocated to a partition is compared with the indicator's location code to determine whether a process executing within a partition can access the indicator. Preferably, each partition has a virtual indicator corresponding to a physical indicator, the state of the physical indicator being derived as a function of the states of multiple virtual indicators for multiple partitions.

Abstract translation: 低级逻辑分区功能将分区，可分区实体和位置代码相关联。 可分区实体是硬件组件，不一定可单独替换。 位置代码反映了系统包装的物理拓扑。 优选地是串联的元件串，每个元件表示可以包含其他设备的设备的分层级中的设备。 相应的位置代码同样与多个物理指示器中的每一个相关联。 分配给分区的可分区实体的位置代码与指示符的位置代码进行比较，以确定分区内执行的进程是否可以访问指示符。 优选地，每个分区具有对应于物理指示符的虚拟指示符，物理指示符的状态作为多个分区的多个虚拟指示符的状态的函数导出。

公开(公告)号：US20110290637A1

公开(公告)日：2011-12-01

申请号：US12790531

申请日：2010-05-28

Applicant: Aditya Kumar ,  Matthew Christian Nielsen ,  Ruijie Shi

Inventor： Aditya Kumar ,  Matthew Christian Nielsen ,  Ruijie Shi

IPC: B01J19/08 ,  H05F3/06

CPC classification number: C10J3/18 ,  C10J3/723 ,  C10J3/84 ,  C10J2200/12 ,  C10J2200/152 ,  C10J2300/0946 ,  C10J2300/1238 ,  C10J2300/1634 ,  C10J2300/169 ,  C10J2300/1884 ,  C10K1/026 ,  C10K1/101 ,  F23G2201/301 ,  F23G2201/40 ,  F23G2204/201 ,  Y02E20/16

Abstract: A plasma-assisted waste gasification system including a sensing mechanism and process for converting waste stream reaction residues into a clean synthesis gas (syngas) is disclosed. The gasification system includes a first sensor located between a gas quench unit and a heat recovery unit to measure a first temperature and first flow rate of the synthesis gas exiting the gas quench unit; a second sensor to measure a second temperature and a second flow rate of a low temperature synthesis gas entering the gas quench unit; wherein the first sensor and the second sensor are connected to an inferential sensing mechanism. The inferential sensing mechanism is capable of estimating the temperature of the synthesis gas in the reactor, based on the measured first temperature and first flow rate, and the measured second temperature and second flow rate, using a mass-energy balance relationship that is based on the measurements of the two sensors. Another aspect of the invention relates to a control unit to control the temperature of the reactor to a required operating temperature range.

Abstract translation: 公开了一种等离子体辅助废气处理系统，其包括感测机构和将废物流反应残余物转化为清洁合成气（合成气）的方法。 气化系统包括位于气体骤冷单元和热回收单元之间的第一传感器，用于测量离开气体骤冷单元的合成气的第一温度和第一流量; 用于测量进入气体骤冷单元的低温合成气的第二温度和第二流量的第二传感器; 其中所述第一传感器和所述第二传感器连接到推定感测机构。 基于所测量的第一温度和第一流量以及测量的第二温度和第二流量，使用基于以下的质量 - 能量平衡关系，推测感测机构能够估计反应器中的合成气的温度 两个传感器的测量。 本发明的另一方面涉及一种将反应器的温度控制在所需工作温度范围内的控制单元。

公开(公告)号：US20100174773A1

公开(公告)日：2010-07-08

申请号：US12350245

申请日：2009-01-08

Applicant: Nathan Robert Penner ,  Sharad Kumar Garg ,  Aditya Kumar ,  Gideon Goodwin

Inventor： Nathan Robert Penner ,  Sharad Kumar Garg ,  Aditya Kumar ,  Gideon Goodwin

IPC: G06F15/16

CPC classification number: G06F3/1454 ,  G06Q10/10 ,  H04L29/08072 ,  H04L67/025 ,  H04L67/06 ,  H04L67/1027 ,  H04L67/141

Abstract: A presentation state is received from the presenting application. The presentation state may represent a current state of the local presentation. A request for the presentation state is received from the viewing application. In response to receiving the request for the presentation state, the presentation state is provided to the viewing application. A request for presentation data synchronized to the presentation state is received from the viewing application. In response to receiving the request for presentation data synchronized to the presentation state, the presentation file is transformed into the presentation data synchronized to the presentation state. The presentation data synchronized to the presentation state is provided to the viewing application. The viewing application may be operative to read the presentation data and to display a remote presentation in response to reading the presentation data.

Abstract translation: 从呈现应用程序接收呈现状态。 呈现状态可以表示本地呈现的当前状态。 从观看应用程序接收到呈现状态的请求。 响应于接收到呈现状态的请求，向呈现状态提供呈现状态。 从观看应用程序接收到与演示状态同步的演示数据的请求。 响应于接收到呈现状态同步的呈现数据的请求，将呈现文件变换为与呈现状态同步的呈现数据。 与呈现状态同步的呈现数据被提供给观看应用。 响应于读取呈现数据，观看应用程序可操作以读取呈现数据并显示远程呈现。

公开(公告)号：US20100083252A1

公开(公告)日：2010-04-01

申请号：US12238757

申请日：2008-09-26

Applicant: Curtis Shannon Eide ,  Aditya Kumar

Inventor： Curtis Shannon Eide ,  Aditya Kumar

IPC: G06F9/44

CPC classification number: G06F9/45558 ,  G06F2009/45579

Abstract: A low-level logical partitioning function associates partitions, partitionable entities, and location codes. Partitionable entities are hardware components, not necessarily individually replaceable. The location code reflects the physical topology of the system packaging. It is preferably a string of concatenated elements, each element representing a device in a hierarchical level of devices which may contain other devices. A respective location code is likewise associated with each of multiple physical indicators. The location code of partitionable entities allocated to a partition is compared with the indicator's location code to determine whether a process executing within a partition can access the indicator. Preferably, each partition has a virtual indicator corresponding to a physical indicator, the state of the physical indicator being derived as a function of the states of multiple virtual indicators for multiple partitions.

Abstract translation: 低级逻辑分区功能将分区，可分区实体和位置代码相关联。 可分区实体是硬件组件，不一定可单独替换。 位置代码反映了系统包装的物理拓扑。 优选地是串联的元件串，每个元件表示可以包含其他设备的设备的分层级中的设备。 相应的位置代码同样与多个物理指示器中的每一个相关联。 分配给分区的可分区实体的位置代码与指示符的位置代码进行比较，以确定分区内执行的进程是否可以访问指示符。 优选地，每个分区具有对应于物理指示符的虚拟指示符，物理指示符的状态作为多个分区的多个虚拟指示符的状态的函数导出。

公开(公告)号：US06952639B2

公开(公告)日：2005-10-04

申请号：US10065710

申请日：2002-11-12

Applicant: Aditya Kumar ,  Nishith Pramod Vora ,  Bruce G. Norman ,  Pierino G. Bonanni

Inventor： Aditya Kumar ,  Nishith Pramod Vora ,  Bruce G. Norman ,  Pierino G. Bonanni

IPC: F01D17/02 ,  F02C9/28 ,  F02C9/16 ,  F02C9/50 ,  F02M7/00

CPC classification number: F02C9/28 ,  F01D17/02 ,  F05D2250/51 ,  F05D2270/44

Abstract: A method for estimating a temperature profile for individual combustion cans at an inlet of a gas turbine is disclosed. In an exemplary embodiment, the method includes determining an exhaust temperature profile of exhaust gas of the gas turbine, and inputting the exhaust temperature profile into a model-based estimator of turbine components through which turbine gas flows. The model-based estimator calculates an estimated inlet temperature profile at the gas turbine inlet, based upon the exhaust temperature profile and design parameters of the gas turbine, the estimate inlet temperature profile being indicative of the actual firing temperature of each of the individual combustion cans.

Abstract translation: 公开了一种用于估计燃气轮机入口处的各个燃烧罐的温度分布的方法。 在示例性实施例中，该方法包括确定燃气轮机的废气的排气温度分布，以及将排气温度曲线输入到涡轮机气体流过的涡轮机部件的基于模型的估计器中。 基于模型的估计器基于燃气轮机的排气温度分布和设计参数来计算燃气涡轮机入口处的估计入口温度分布，估计入口温度分布指示每个单独燃烧罐的实际点火温度 。

公开(公告)号：US06350971B1

公开(公告)日：2002-02-26

申请号：US09729125

申请日：2000-12-04

Applicant: Joseph Lucian Smolenski ,  Allan John Connolly ,  Austars Raymond Schnore, Jr. ,  Aditya Kumar ,  Walter Whipple, III

Inventor： Joseph Lucian Smolenski ,  Allan John Connolly ,  Austars Raymond Schnore, Jr. ,  Aditya Kumar ,  Walter Whipple, III

IPC: H05B102

CPC classification number: H05B3/746 ,  H05B2213/05

Abstract: An apparatus is provided for detecting movement of a vessel positioned on a cooktop surface. The apparatus includes a resonant circuit that has at least an inductive loop positioned proximate to the cooktop surface. A signal conditioner is connected to the resonant circuit for conditioning signals received from the resonant circuit. A processor is connected to the signal conditioner and compares the conditioned signals received from the signal conditioner to a reference signal whereby detecting movement of the vessel.

Abstract translation: 提供了一种用于检测位于炉灶面上的容器的运动的装置。 该装置包括一个谐振电路，该谐振电路至少具有定位在炉灶面附近的感应回路。 信号调节器连接到谐振电路，用于调节从谐振电路接收的信号。 处理器连接到信号调节器，并将从信号调节器接收的经调节的信号与参考信号进行比较，从而检测容器的移动。